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Biochemical identification of base and phosphate contacts between Fis and a high-affinity DNA binding site.


ABSTRACT: Fis (factor for inversion stimulation) is a nucleoid-associated protein in Escherichia coli and other bacteria that stimulates certain site-specific DNA recombination events, alters DNA topology, and serves as a global gene regulator. DNA binding is central to the functions of Fis and involves a helix-turn-helix DNA binding motif located in the carboxy-terminal region. Specific DNA binding is observed at a number of sites exhibiting poorly related sequences. Such interactions require four critical base pairs positioned -7, -3, +3, and +7 nucleotides relative to the central nucleotide of a 15-bp core-binding site. To further understand how Fis interacts with DNA, we identified the positions of 14 DNA phosphates (based on ethylation interference assays) that are required for Fis binding. These are the 5' phosphates of the nucleotides at positions -8, -7, -6, +1, +2, +3, and +4 relative to the central nucleotide on both DNA strands. Another five phosphates located in the flanking regions from positions +10 through +14 can serve as additional contact sites. Using a combination of biochemical approaches and various mutant Fis proteins, we probed possible interactions between several key Fis residues and DNA bases or phosphates within a high-affinity binding site. We provide evidence in support of interactions between the R85 Fis residue and a highly conserved guanine at position -7 and between T87 and the critical base pairs at -3 and +3. In addition, we present evidence in support of interactions between N84 and the phosphate 5' to the base at +4, between R89 and the -7 phosphate, between T87 and the +3 and +4 phosphates, and between K90 and the +3 phosphate. This work provides functional evidence for some of the most critical interactions between Fis and DNA required for a high binding affinity and demonstrates the large contribution made by numerous phosphates to the stability of the Fis-DNA complex.

SUBMITTER: Shao Y 

PROVIDER: S-EPMC2517053 | biostudies-literature | 2008 Jul

REPOSITORIES: biostudies-literature

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Biochemical identification of base and phosphate contacts between Fis and a high-affinity DNA binding site.

Shao Yongping Y   Feldman-Cohen Leah S LS   Osuna Robert R  

Journal of molecular biology 20080507 2


Fis (factor for inversion stimulation) is a nucleoid-associated protein in Escherichia coli and other bacteria that stimulates certain site-specific DNA recombination events, alters DNA topology, and serves as a global gene regulator. DNA binding is central to the functions of Fis and involves a helix-turn-helix DNA binding motif located in the carboxy-terminal region. Specific DNA binding is observed at a number of sites exhibiting poorly related sequences. Such interactions require four critic  ...[more]

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